Strategies for Validation of Inactivation of Viruses with Trizol® LS and Formalin Solutions.

Applied biosafety : journal of the American Biological Safety Association Pub Date : 2020-06-01 DOI:10.1177/1535676020915065

Cary Retterer, Tara Kenny, Rouzbeh Zamani, Louis A Altamura, Brian Kearney, Jim Jaissle, Susan Coyne, Scott Olschner, David Harbourt

{"title":"Strategies for Validation of Inactivation of Viruses with Trizol® LS and Formalin Solutions.","authors":"Cary Retterer, Tara Kenny, Rouzbeh Zamani, Louis A Altamura, Brian Kearney, Jim Jaissle, Susan Coyne, Scott Olschner, David Harbourt","doi":"10.1177/1535676020915065","DOIUrl":null,"url":null,"abstract":"Introduction: Inactivation of biological agents and particularly select agents has come under increased scrutiny since the US Army inadvertently shipped live anthrax both inside and outside the US, leading to more stringent regulations regarding inactivation.Methods: Formalin and Trizol® LS were used to inactivate virus samples in complex matrices. Cytotoxic chemicals were removed using either desalting or concentrating columns or through dilution using HYPERFlasks. Efficacy of inactivation was evaluated either through plaque assay or immunofluorescence assay.Results: All virus samples and tissue specimens were successfully inactivated using either formalin or Trizol® LS. Both the desalting columns and concentrating columns were able to remove cytotoxic chemicals to facilitate viral amplification in controls. Dilution of cytotoxic chemicals through HYPERFlasks was also successful provided that media was changed completely within 48 hours of first cell passage.Discussion: All inactivation testing demonstrates that both formalin and Trizol® LS successfully inactivate virus-infected cell lines and tissues, which is consistent with previously published literature. Each sample cleanup method has its benefits and pitfalls. Desalting columns can process the largest sample size but are also susceptible to plugging and degradation, whereas concentrating columns are not as vulnerable but can only process 5% of the sample load per run.Conclusion: Based on our results along with those of our colleagues, it is recommended that the regulatory authorities re-evaluate the requirements for each entity to validate well-established inactivation methods in house because there would be limited benefits despite the considerable resources required for this effort.","PeriodicalId":520561,"journal":{"name":"Applied biosafety : journal of the American Biological Safety Association","volume":" ","pages":"74-82"},"PeriodicalIF":0.0000,"publicationDate":"2020-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1177/1535676020915065","citationCount":"4","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Applied biosafety : journal of the American Biological Safety Association","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1177/1535676020915065","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 4

Abstract

Introduction: Inactivation of biological agents and particularly select agents has come under increased scrutiny since the US Army inadvertently shipped live anthrax both inside and outside the US, leading to more stringent regulations regarding inactivation.

Methods: Formalin and Trizol® LS were used to inactivate virus samples in complex matrices. Cytotoxic chemicals were removed using either desalting or concentrating columns or through dilution using HYPERFlasks. Efficacy of inactivation was evaluated either through plaque assay or immunofluorescence assay.

Results: All virus samples and tissue specimens were successfully inactivated using either formalin or Trizol® LS. Both the desalting columns and concentrating columns were able to remove cytotoxic chemicals to facilitate viral amplification in controls. Dilution of cytotoxic chemicals through HYPERFlasks was also successful provided that media was changed completely within 48 hours of first cell passage.

Discussion: All inactivation testing demonstrates that both formalin and Trizol® LS successfully inactivate virus-infected cell lines and tissues, which is consistent with previously published literature. Each sample cleanup method has its benefits and pitfalls. Desalting columns can process the largest sample size but are also susceptible to plugging and degradation, whereas concentrating columns are not as vulnerable but can only process 5% of the sample load per run.

Conclusion: Based on our results along with those of our colleagues, it is recommended that the regulatory authorities re-evaluate the requirements for each entity to validate well-established inactivation methods in house because there would be limited benefits despite the considerable resources required for this effort.

查看原文本刊更多论文

用Trizol®LS和福尔马林溶液验证病毒灭活的策略

导论:自从美国陆军无意中将活炭疽菌运送到美国境内外以来，生物制剂的失活，特别是精选制剂的失活受到越来越严格的审查，导致对失活的规定更加严格。方法:用福尔马林和Trizol®LS灭活复杂基质中的病毒样品。使用脱盐或浓缩柱或使用HYPERFlasks稀释去除细胞毒性化学物质。通过斑块法或免疫荧光法评估失活效果。结果:用福尔马林或Trizol®LS灭活了所有病毒和组织标本。脱盐柱和浓缩柱都能够去除细胞毒性化学物质，以促进病毒在对照中的扩增。如果在第一次细胞传代后48小时内完全改变培养基，通过HYPERFlasks稀释细胞毒性化学物质也可以成功。讨论:所有灭活试验表明，福尔马林和Trizol®LS都能成功灭活病毒感染的细胞系和组织，这与先前发表的文献一致。每种样本清理方法都有其优点和缺点。脱盐塔可以处理最大的样本量，但也容易堵塞和降解，而浓缩塔不那么脆弱，但每次运行只能处理5%的样品负荷。结论:根据我们和同事的研究结果，建议监管机构重新评估每个实体的需求，以验证内部建立的灭活方法，因为尽管这项工作需要大量资源，但收益有限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Applied biosafety : journal of the American Biological Safety Association

自引率

0.00%

发文量